RU2350894C1 - Package for multiple transportation of loose and highly explosive compositions - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: invention is related to the field of loose and highly explosive compositions transportation. Package for multiple transportation of loose and highly explosive compositions comprises body with bottom, cover with locks, cylindrical seats with shock absorbers installed at the bottom, seats are formed by location plates installed at the body bottom. In every seat leak-tight container is installed, which is arranged in the form of metal cylindrical cartridge with cover, on internal surface of which shock absorber is installed for pressing of highly explosive composition packed in case and placed into container. Generatrices of containers external diameter are located at the distance of at least 0.27d from each other. On package cover internal side there is a device that fixes every cover of container. Package body is made of material with strength that is less than container body strength 1.3…1.5 times.

EFFECT: provision of safety and operational reliability during transportation of large amount of loose and highly explosive compositions by air and sea transport and in performance of handling operations.

3 cl, 3 dwg

Description

The invention relates to the field of military equipment and can be used in the design of packaging containers for safe transportation and handling with bulk explosive compositions.

Known packaging according to patent US 6779654 BA, cl. 7 F42B 39/00 dated 08.24.04 (a magazine for transportation of shot cartridges), the design of which ensures its reuse, consisting of a container of elastic material with a lid and a latch securing the container in the lid of the container. Small ammunition is packed inside the container. The specified design of the packaging allows the laying of small containers with a small amount of bulk explosives, which is one of the requirements for the safety of transportation of explosive compositions.

The main disadvantage of this design is the lack of devices for placing containers with bulk explosive compositions at a distance that excludes the transfer of detonation from one container in stacking to another, in the event of an explosion, as well as the execution of the container body for transporting bulk explosive compositions, eliminating the formation of fragments during its destruction, possessing energy sufficient to initiate detonation in adjacent containers.

To a large extent, these drawbacks have been eliminated in the design of containers for small-sized cartridges for hand grenade launchers according to RF patent No. 2257538, IPC ⁸ F42B 39/26, comprising a housing with a bottom, a lid with an external recess and an annular groove coaxial to it from the opposite side, through which the lid is installed through the sealing ring is on the open end of the housing and is pressed to it by locks, while several inserts with sockets for small-sized cartridges with shock absorbers installed at the bottom are successively installed in its housing.

The main disadvantage of this packaging design is the presence of a thick-walled metal case, as well as the absence of devices that fulfill the requirements for placing containers with loose explosive compositions in inserts at a distance that excludes detonation of explosive compositions in neighboring containers in the event of one of them being detonated, as well as the presence of rigid gaskets, forming fragments during the explosion, capable of initiating detonation in adjacent containers with bulk explosive compositions.

The objective of the present invention is to ensure safety and operational reliability during transportation of a large number of bulk explosive compositions by air and sea transport and during loading and unloading.

The problem is solved in the design of containers for multiple transportation of bulk explosive compositions containing a housing with a bottom, a lid with locks and cylindrical nests with shock absorbers installed on their bottom. New in the design of the container is that the nests are formed by lodges placed on the bottom of the case, in each nest there is a sealed container made in the form of a metal cylindrical glass with a lid, on the inner surface of which there is a shock absorber for compressing the explosive composition packed in the case, placed in the container wherein the generators of the outer diameter of the containers are located at a distance of at least 0.27 d from each other, a device is fixed on the lid of the container on the inside Each container lid, and the container body is made of material with a strength lower than the strength of the container body by 1.3–1.5 times.

In the particular case, shock absorbers for preloading the explosive composition packaged in the case are made of porous material, for example rubber.

In the particular case, the container glass is made with a wall thickness of not more than 1 mm.

Figure 1 and Figure 2 shows a container for the multiple transportation of bulk explosive compositions, comprising a housing with a bottom 1, a cover 3 with gramophone type locks 2, lodgements 4, forming cylindrical nests at the bottom of the container body, in which shock absorbers made of porous material are installed in series 6 and containers for bulk explosive compositions 7, installed at a distance of not less than 0.27d from each other. A device 5 is mounted on the lid of the container from the inside, fixing the lid of the container 9.

Figure 3 shows a sealed metal container containing a cylindrical cup 8 with a lid 9, in which an outer recess is made and an annular groove 10 coaxial with it, by which the lid of the container through the sealing ring 11 is mounted on the open end of the container and pressed against it with gramophone locks 12. Inside the container in a case of inert material 13 contains a loose explosive composition 14, pressed by an elastic shock absorber of porous rubber 15 mounted on the inner surface of the lid of the container.

Filling containers for transportation with a loose explosive composition 14 is as follows. Loose explosive compositions are poured into the covers 13 of an inert material, such as polyethylene. A cover is necessary to prevent contact of the compositions with the metal case due to possible chemical interaction and diffusion.

Coating the internal cavity of the metal container body with varnishes of the BT-5100 or PBV-12 type does not exclude the possible interaction of some types of explosive compositions with metal.

The case with the bulk explosive material inside it is placed in an airtight container 7 and is pressed by a shock absorber mounted on the inner surface of the lid of the container 15 and made, for example, of porous rubber. The tightness of the container is checked by the widespread method of "dipping" in special installations.

The safety of hygroscopic bulk compositions is ensured by the design of the container clamping device and the tightness of the covers made of inert material.

Containers with explosive compositions are installed with their bottom in the cylindrical nests of the lodgement on shock absorbers made of porous material, compensating for technological tolerances for the manufacture of container bodies. In this case, the generators of the outer diameter of the containers are separated from each other at a distance of not less than 0.27d.

The maximum distance between containers is selected from the condition of minimum dimensions and convenience in official handling. The minimum distance of at least 0.27d is selected from the condition of decreasing the pressure of the shock wave when detonation occurs in one of the containers to a level safe for the containers adjacent to it.

The number of containers with explosive bulk solids in a container depends on special requirements that determine the permissible volumes of transportation of explosive bulk solids for each type of vehicle, as well as during loading and unloading.

The wall thickness of the container glass 8 not more than 1 mm is selected based on the condition of excluding the possibility of initiating neighboring containers with fragments of the detonated container body. The implementation of the container body and its lid of a material whose strength is 1.3–1.5 times lower than the strength of a metal container is selected from the condition that the impact energy is absorbed by the container body when it is destroyed if it accidentally falls from a height, which largely ensures the safety of containers .

Thus, the use of the proposed technical solution in the construction of containers for the multiple transportation of bulk explosive compositions can improve safety and operational reliability during transportation by air and sea transport, as well as during loading and unloading.

Information sources

1. Shop for shot cartridges. US patent No. 6779654 VA, cl. 7 F42B 39/00, 08/24/04 - analog.

2. A container for small-sized cartridges for manual and easel grenade launchers. RF patent №2257538, IPC ⁸ F42B 39/00, 10/14/03, the prototype.

Claims (3)

1. A container for the multiple transportation of bulk explosive compositions, comprising a housing with a bottom, a lid with locks, cylindrical nests with shock absorbers installed at the bottom, characterized in that the nests are formed by lodgements placed at the bottom of the housing, in each nest there is a sealed container made in the form a metal cylindrical glass with a lid, on the inner surface of which there is a shock absorber for preloading an explosive composition packed in a case, placed in a container, while the outer diameter (d) of the containers are located at a distance of at least 0.27 d from each other, a device is installed on the lid of the container on the inside that fixes each container lid, and the container body is made of material with a strength less than the strength of the container body of 1.3 ... 1.5 times. 2. The container according to claim 1, characterized in that the shock absorbers for preloading the explosive composition packaged in a cover are made of a porous material, for example rubber. 3. The container according to claim 1, characterized in that the glass of the container is made with a wall thickness of not more than 1 mm

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